Characterization of a CLYC Detector and Validation of the Monte Carlo Simulation by Measurement Experiments

Kim, Hyun Suk; Smith, M. B.; Koslowsky, M. R.; Kwak, Seong Woo; Ye, Sung-Joon; Kim, Geehyun

doi:10.14407/jrpr.2017.42.1.48

Cited by 13 publications

(14 citation statements)

References 11 publications

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“…This shows that PSD performance can be substantially affected by the determination of the threshold. Optimized variables for two digital PSD methods can provide reference values for developing a fast neutron/ gamma-ray dual-particle imager with the stilbene scintillator and the EJ-301 liquid scintillator as feasibility discussed in one of previous studies [10][11][12].…”

Section: Jrprmentioning

confidence: 99%

“…Depending on the time width of typical pulse signals being processed, one can achieve processible count rate of pulses up to 500 kHz, which exhibits an advantage over previous analog PSD systems. As a fundamental step for the development of a fast neutron/gamma-ray dual-particle imager [10][11][12], we took an initiative approach to implement a fast neutron/gammaray dual-particle measurement system with digital PSD using the stilbene crystal from Inrad Optics, and the EJ-301 liquid scintillator from ELJEN TECHNOLOGY combined with DT5730 of CAEN. In the development of the fast neutron/ gamma-ray dual-particle imager, we take a single non-position-sensitive detector-based approach to obtain temporal modulation patterns determined by the rotating collimators.…”

Section: Introductionmentioning

confidence: 99%

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Digital n-γ Pulse Shape Discrimination in Organic Scintillators with a High-Speed Digitizer

2019

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Background:As neutron fields are always accompanied by gamma rays, it is essential to distinguish neutrons from gamma rays in the detection of neutrons. Neutrons and gamma rays can be separated by pulse shape discrimination (PSD) methods. Recently, we performed characterization of a stilbene scintillator detector and an EJ-301 liquid scintillator detector with a highspeed digitizer DT5730 and investigated optimized PSD variables for both detectors. This study is for providing a basis for developing fast neutron/gamma-ray dual-particle imager. Materials and Methods:We conducted PSD experiments using stilbene scintillator and EJ-301 liquid scintillator and evaluated neutron and gamma ray discriminability of each PSD method with a 137 Cs gamma source and a 252 Cf neutron source. We implemented digital signal processing techniques to apply two PSD methods -the charge comparison (CC) method and the constant time discrimination (CTD) method -to distinguish neutrons from gamma rays. We tried to find optimized PSD variables giving the best discriminability in a given experimental condition. Results and Discussion:For the stilbene scintillator detector, the charge comparison method and the constant time discrimination method both delivered the PSD FOM values of 1.7. For the EJ-301 liquid scintillator detector, both PSD methods delivered the PSD FOM values of 1.79. With the same PSD variables, PSD performance was excellent in 300 ± 100 keVee, 500 ± 100 keVee, and 700 ± 100 keVee energy regions. This result shows that we can achieve an effective discrimination of neutrons from gamma rays using these scintillator detector systems. Conclusion:We applied both PSD methods to a stilbene and a liquid scintillator and optimized the PSD performance represented by FOM values. We observed a good separation performance of both scintillators combined with a high-speed digitizer and digital PSD. These results will provide reference values for the dual-particle imager we are developing, which can image both fast neutrons and gamma rays simultaneously.

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Section: Jrprmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Digital n-γ Pulse Shape Discrimination in Organic Scintillators with a High-Speed Digitizer

2019

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“…In our previous study, the CLYC detector was characterized for its energy resolution and detection efficiency. Detailed information on the CLYC detector and the fabrication of the CLYC-based RMC system is elaborated in our previous work [25,26]. The CLYC detector utilized in our work showed a PSD figure of merit (FOM) of 3.1 using an energy window around the thermalneutron peak.…”

Section: A Clyc-based Rmc Systemmentioning

confidence: 99%

Dual-Particle Imaging Performance of a Cs₂LiYCl₆:Ce (CLYC)-Based Rotational Modulation Collimator (RMC) System

Kim

2022

IEEE Trans. Nucl. Sci.

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A dual-particle imager based on a rotational modulation collimator (RMC) utilizing a Cs2LiYCl6:Ce (CLYC) scintillator was developed and investigated for its dual-particle imaging performance. Design considerations and previous simulation work were verified by conducting experiments, and experimental results showing neutron and gamma-ray imaging capabilities were obtained. The imaging performance of the CLYC-based RMC system was further evaluated by investigating it in a mixed neutron and gamma-ray environment, and dualparticle imaging capability of the RMC system was demonstrated. Signal-to-noise ratio values larger than 45 were achieved for reconstructed images of each neutron and gamma-ray source distribution, if modulation patterns were obtained with average fractional counting uncertainty of less than 3%. The structural similarity index of reconstructed images was calculated to be almost unity, indicating an artifact-free image.

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“…The response function of the CLYC detector to γ-rays has ben calculated by Monte Carlo simulations with GEANT4 (release 10.03.p01). The GEANT4 toolkit was preferred over other simulation codes used in previous works [12,13] because of its built-in nuclear decay models (G4RadioactiveDecay) based on evaluated nuclear data libraries (ENSDF [14]) and its versatility for simulating complex decay schemes with correlated particle emission. This was of advantage in a first set of simulations aimed at reproducing the experimental measurements with standard γ-ray sources.…”

Section: Monte Carlo Simulation With Geant4mentioning

confidence: 99%

Characterization of a CLYC detector for underground experiments

Martínez

Rada

Cano‐Ott

et al. 2018

Nuclear Instruments and Methods in Physics Research Section A:

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Large size detectors based on Cs 2 LiYCl 6 :Ce (CLYC) are capable of performing a combined γ-ray and neutron spectrometry and constitute a promising technology for a wide range of applications in nuclear and high energy physics.Due to their novelty, the comprehensive characterization of the performance of individual CLYC detectors is of great importance for determining their range of applicability. In this work we report on a wide series measurements performed with a commercial 2"x2" CLYC crystal. Good energy and timing resolution values of 4.7% (@ 662 keV) and 1340 ps (FWHM), respectively, were achieved, and a neutron/γ separation figure of merit value of 4.2 was obtained. A dedicated measurement for investigating the intrinsic background of the detector was performed at the Laboratorio Subterráneo de Canfranc (Spain). It evidenced a sizeable contamination in the detector materials which poses limits in the use of CLYC in low background experiments. In addition, detailed Monte Carlo simulations with the GEANT4 toolkit were performed for modeling the response function of the CLYC detector to γ-rays. An excellent agreement with the experimental data has been achieved.

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Characterization of a CLYC Detector and Validation of the Monte Carlo Simulation by Measurement Experiments

Cited by 13 publications

References 11 publications

Digital n-γ Pulse Shape Discrimination in Organic Scintillators with a High-Speed Digitizer

Digital n-γ Pulse Shape Discrimination in Organic Scintillators with a High-Speed Digitizer

Dual-Particle Imaging Performance of a Cs₂LiYCl₆:Ce (CLYC)-Based Rotational Modulation Collimator (RMC) System

Characterization of a CLYC detector for underground experiments

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Characterization of a CLYC Detector and Validation of the Monte Carlo Simulation by Measurement Experiments

Cited by 13 publications

References 11 publications

Digital n-γ Pulse Shape Discrimination in Organic Scintillators with a High-Speed Digitizer

Digital n-γ Pulse Shape Discrimination in Organic Scintillators with a High-Speed Digitizer

Dual-Particle Imaging Performance of a Cs2LiYCl6:Ce (CLYC)-Based Rotational Modulation Collimator (RMC) System

Characterization of a CLYC detector for underground experiments

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Dual-Particle Imaging Performance of a Cs₂LiYCl₆:Ce (CLYC)-Based Rotational Modulation Collimator (RMC) System